Toronto Math Forum
MAT244-2013F => MAT244 Math--Tests => Quiz 4 => Topic started by: Victor Ivrii on November 13, 2013, 08:33:40 PM
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7.4 p. 395 \#6
Consider the vectors $\mathbf{x}^{(1)}(t) = \begin{pmatrix}t\\1\end{pmatrix}$ and $\mathbf{x}^{(2)}(t) = \begin{pmatrix}t^2\\2t\end{pmatrix}$.
(a) Compute the Wronskian of $\mathbf{x}^{(1)}$ and $\mathbf{x}^{(2)}$.
(b) In what intervals are $\mathbf{x}^{(1)}$ and $\mathbf{x}^{(2)}$ linearly independent?
(c) What conclusion can be drawn about the coefficients in the system of homogeneous differential equations satisfied by $\mathbf{x}^{(1)}$ and $\mathbf{x}^{(2)}$?
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(a). $W(\mathbf{x}^{(1)},\mathbf{x}^{(2)})=t\cdot 2t-1cdot t^2=t^2$;
2. When $t=0$ we have $W=0$; then $\mathbf{x}^{(1)}(0)$ and $\mathbf{x}^{(2)}(0)$ are linearly dependent, so $\mathbf{x}^{(1)}$ and $\mathbf{x}^{(2)}$ are linearly independant on intervals where $t\ne 0$;
3. The coefficients of the ODE are discontinous at x=0. If $\mathbf{x}$ satisfies this system $\mathbf{x}'+A\mathbf{x}=0$ then $A$ must be singular at $t=0$.